Precision Control of Nanoparticle Monolayer Assembly: Optimizing Rate and Crystal Quality

NanoProduct Lab Members in Authors

Mostafa Bedewy
Group Leader and Principal Investigator (PI)
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Precision Control of Nanoparticle Monolayer Assembly: Optimizing Rate and Crystal Quality

Mostafa Bedewy, Jingjie Hu and A. John Hart

17th IEEE International Conference on Nanotechnology (IEEE NANO)

Year
2017

Abstract

We study the critical factors that govern the 2D-crystal quality of self-assembled nanoparticles using convective assembly (“blade-casting”) technique. The goal is to improve crystal quality by both maximizing monolayer coverage and optimizing crystal width. We find that crystal quality is enhanced by air plasma treatment of the substrate surface, while the monolayer domain size increases with assembly at higher substrate temperature. In addition, we correlate the meniscus shape to array thickness obtained at different deposition stages. Our results provide insights toward scalable production of well-ordered nanoparticle monolayers for applications including biosensors, optically-active surfaces, and nanocomposites.


Category:   Papers in Refereed Conference Proceedings

Tags:   Directed self-assembly|Mechanical design|Optical techniques and imaging|Surface engineering

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